Abstract
Humans increasingly occupy cities. Globally, about 50% of the total human population lives in urban environments, and in spite of some trends for deurbanization, the transition from rural to urban life is expected to accelerate in the future, especially in developing nations and regions. The Republic of Korea, for example, has witnessed a dramatic rise in its urban population, which now accounts for nearly 90% of all residents; the increase from about 29% in 1955 has been attributed to multiple factors, but has clearly been driven by extraordinary growth in the gross domestic product accompanying industrialization. While industrialization and urbanization have unarguably led to major improvements in quality of life indices in Korea and elsewhere, numerous serious problems have also been acknowledged, including concerns about resource availability, water quality, amplification of global warming and new threats to health. Questions about sustainability have therefore led Koreans and others to consider deurbanization as a management policy. Whether this offers any realistic prospects for a sustainable future remains to be seen. In the interim, it has become increasingly clear that built environments are no less complex than natural environments, and that they depend on a variety of internal and external connections involving microbes and the processes for which microbes are responsible. I provide here a definition of the urban microbiome, and through examples indicate its centrality to human function and wellbeing in urban systems. I also identify important knowledge gaps and unanswered questions about urban microbiomes that must be addressed to develop a robust, predictive and general understanding of urban biology and ecology that can be used to inform policy-making for sustainable systems.
Citations
Citations to this article as recorded by
- Forest management impacts on soil phosphorus cycling: Insights from metagenomics in Moso bamboo plantations
Xiaoping Zhang, Zhiyuan Huang, Zheke Zhong, Qiaoling Li, Fangyuan Bian
Journal of Environmental Management.2025; 373: 123735. CrossRef - How can plant-enriched natural environments benefit human health: a narrative review of relevant theories
Hansen Li, Guodong Zhang
International Journal of Environmental Health Research.2024; 34(3): 1241. CrossRef - Who inhabits the built environment? A microbiological point of view on the principal bacteria colonizing our urban areas
Jessica Zampolli, Alessandra De Giani, Massimiliano Rossi, Margherita Finazzi, Patrizia Di Gennaro
Frontiers in Microbiology.2024;[Epub] CrossRef - Urban air quality affects the apple microbiome assembly
Matthias Schweitzer, Isabella Kögl, Birgit Wassermann, Ahmed Abdelfattah, Wisnu Adi Wicaksono, Gabriele Berg
Environmental Research.2024; 262: 119858. CrossRef - Characterizing suburban soil and microbial properties along a soil age chronosequence
Andie Suratt, Kavisha Behl, Wai Lam Hong, Yae Eun Yoon, Steven D. Allison
Ecosphere.2024;[Epub] CrossRef - Unlocking resilience and sustainability with earth-based materials: a principled framework for urban transformation
Michael Bühler, Pia Hollenbach, Lothar Köhler, Rachel Armstrong
Frontiers in Built Environment.2024;[Epub] CrossRef - Mixing with native broadleaf trees modified soil microbial communities of Cunninghamia lanceolata monocultures in South China
Fenglin Zheng, Jiawei Gu, Dehao Lu, Jiaman Yang, Xiaomai Shuai, Cheng Li, Hongyue Chen
Frontiers in Microbiology.2024;[Epub] CrossRef - Abundance and absence: Human-microbial co-evolution in the Anthropocene
Aaron Bradshaw
The Anthropocene Review.2024; 11(1): 26. CrossRef - Faecal indicator bacteria on indoor floors linked to exterior sidewalk contamination in New York City
Alessandra C Leri, Marjan Khan
Indoor and Built Environment.2023; 32(6): 1187. CrossRef - Mapping bark bacteria: initial insights of stemflow-induced changes in bark surface phyla
J. E. Hudson, D. F. Levia, K. M. Yoshimura, N. R. Gottel, S. A. Hudson, J. F. Biddle, Blaire Steven
Microbiology Spectrum.2023;[Epub] CrossRef - Towards the microbial home: An overview of developments in next‐generation sustainable architecture
Rachel Armstrong
Microbial Biotechnology.2023; 16(6): 1112. CrossRef -
Chitinophaga pendula, sp. nov., from an air conditioner condensate drain line
T. Chiyoko Onouye, Hans-Jürgen Busse, Rebecca D. Prescott, Maxwell K. Darris, Stuart P. Donachie
International Journal of Systematic and Evolutionary Microbiology
.2023;[Epub] CrossRef - Deciphering Bacterial Community of the Fallow and Paddy Soil Focusing on Possible Biocontrol Agents
Aqleem Abbas, Jie Duan, Assane Hamidou Abdoulaye, Yanping Fu, Yang Lin, Jiatao Xie, Jiasen Cheng, Daohong Jiang
Agronomy.2022; 12(2): 431. CrossRef - Plant beneficial rhizobacteria community structure changes through developmental stages of peanut and maize
María Soledad Anzuay, Natalia Pin Viso, Liliana Mercedes Ludueña, Federico Daniel Morla, Jorge Guillermo Angelini, Tania Taurian
Rhizosphere.2021; 19: 100407. CrossRef - Wastewater treatment works change the intestinal microbiomes of insectivorous bats
Calvin Mehl, M. Corrie Schoeman, Tomasz J. Sanko, Carlos Bezuidenhout, Charlotte M. S. Mienie, Wolfgang Preiser, Dalene Vosloo, Jun Sun
PLOS ONE.2021; 16(3): e0247475. CrossRef - Microbiomes for All
Theodore R. Muth, Avrom J. Caplan
Frontiers in Microbiology.2020;[Epub] CrossRef - Analysis of the Soil Microbiome of a Los Angeles Urban Farm
Savanah St. Clair, Maryam Saraylou, Daila Melendez, Norman Senn, Serina Reitz, Destini Kananipour, Angelo Alvarez, Rafael Clemente
Applied and Environmental Soil Science.2020; 2020: 1. CrossRef - Microbial Composition and Functional Diversity Differ Across Urban Green Infrastructure Types
Aman S. Gill, Kai Purnell, Matthew I. Palmer, Jaime Stein, Krista L. McGuire
Frontiers in Microbiology.2020;[Epub] CrossRef - Hiệu quả của phân bón urea humate kết hợp phân bón vi sinh lên sinh trưởng và năng suất lúa tại huyện Châu Thành A, tỉnh Hậu Giang
Tất Anh Thư, Bùi Triệu Thương, Nguyễn Khởi Nghĩa
Can Tho University Journal of Science.2020; 56(SoilSci: 191. CrossRef - Exotic airborne bacteria identified in urban resuspended dust by next generation sequencing
Nora Kováts, Eszter Horváth, Katalin Hubai, András Hoffer, Beatrix Jancsek-Turóczi, Csaba Fekete, D. Altausen, S. Abdullaev, J. Hofer
E3S Web of Conferences.2019; 99: 04009. CrossRef - Influence of Urbanization on Epiphytic Bacterial Communities of the Platanus × hispanica Tree Leaves in a Biennial Study
Jordan Espenshade, Sofie Thijs, Stanislaw Gawronski, Hannelore Bové, Nele Weyens, Jaco Vangronsveld
Frontiers in Microbiology.2019;[Epub] CrossRef - World’s Largest Mass Bathing Event Influences the Bacterial Communities of Godavari, a Holy River of India
Kunal Jani, Dhiraj Dhotre, Jayashree Bandal, Yogesh Shouche, Mangesh Suryavanshi, Vinay Rale, Avinash Sharma
Microbial Ecology.2018; 76(3): 706. CrossRef - Toward the Drug Factory Microbiome: Microbial Community Variations in Antibiotic-Producing Clean Rooms
Amal M. Hamdy, Moamen El-massry, Mona T. Kashef, Magdy A. Amin, Ramy K. Aziz
OMICS: A Journal of Integrative Biology.2018; 22(2): 133. CrossRef - Assessment of urban microbiome assemblies with the help of targeted in silico gold standards
Samuel M. Gerner, Thomas Rattei, Alexandra B. Graf
Biology Direct.2018;[Epub] CrossRef - Profiling microbial strains in urban environments using metagenomic sequencing data
Moreno Zolfo, Francesco Asnicar, Paolo Manghi, Edoardo Pasolli, Adrian Tett, Nicola Segata
Biology Direct.2018;[Epub] CrossRef - Soil Bacterial Diversity Is Associated with Human Population Density in Urban Greenspaces
Haitao Wang, Minying Cheng, Melissa Dsouza, Pamela Weisenhorn, Tianling Zheng, Jack A. Gilbert
Environmental Science & Technology.2018; 52(9): 5115. CrossRef - Whole metagenome profiles of particulates collected from the International Space Station
Nicholas A. Be, Aram Avila-Herrera, Jonathan E. Allen, Nitin Singh, Aleksandra Checinska Sielaff, Crystal Jaing, Kasthuri Venkateswaran
Microbiome.2017;[Epub] CrossRef - Long-term Fertilization Structures Bacterial and Archaeal Communities along Soil Depth Gradient in a Paddy Soil
Yunfu Gu, Yingyan Wang, Sheng’e Lu, Quanju Xiang, Xiumei Yu, Ke Zhao, Likou Zou, Qiang Chen, Shihua Tu, Xiaoping Zhang
Frontiers in Microbiology.2017;[Epub] CrossRef - Tree Leaf Bacterial Community Structure and Diversity Differ along a Gradient of Urban Intensity
Isabelle Laforest-Lapointe, Christian Messier, Steven W. Kembel, Eoin L. Brodie
mSystems.2017;[Epub] CrossRef - Patients as Patches: Ecology and Epidemiology in Healthcare Environments
Eric T. Lofgren, Andrea M. Egizi, Nina H. Fefferman
Infection Control & Hospital Epidemiology.2016; 37(12): 1507. CrossRef - A vision for ubiquitous sequencing
Yaniv Erlich
Genome Research.2015; 25(10): 1411. CrossRef - Urban microbial ecology of a freshwater estuary of Lake Michigan
Jenny C. Fisher, Ryan J. Newton, Deborah K. Dila, Sandra L. McLellan, Donald R. Zak, Julian D. Olden
Elementa: Science of the Anthropocene.2015;[Epub] CrossRef - Grand challenges in urban ecology
Diane E. Pataki
Frontiers in Ecology and Evolution.2015;[Epub] CrossRef - A unique assemblage of cosmopolitan freshwater bacteria and higher community diversity differentiate an urbanized estuary from oligotrophic Lake Michigan
Ryan J. Newton, Sandra L. McLellan
Frontiers in Microbiology.2015;[Epub] CrossRef
MSK
Cite this Article
